CAPON-nNOS coupling can serve as a target for developing new anxiolytics

Blocking the binding between two proteins whose interaction is increased during stress can reduce anxiety in mouse models. Anxiety disorders are highly prevalent psychiatric diseases 1 , 2 . There is need for a deeper understanding of anxiety control mechanisms in the mammalian brain and for develop...

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Veröffentlicht in:	Nature medicine 2014-09, Vol.20 (9), p.1050-1054
Hauptverfasser:	Zhu, Li-Juan, Li, Ting-You, Luo, Chun-Xia, Jiang, Nan, Chang, Lei, Lin, Yu-Hui, Zhou, Hai-Hui, Chen, Chen, Zhang, Yu, Lu, Wei, Gao, Li-Yan, Ma, Yu, Zhou, Qi-Gang, Hu, Qin, Hu, Xiao-Ling, Zhang, Jing, Wu, Hai-Yin, Zhu, Dong-Ya
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Schlagworte:	692/308/153 692/699/476 Adaptor Proteins, Signal Transducing - metabolism Amino acids Anti-Anxiety Agents - pharmacology Antianxiety agents Anxiety Biomedicine Cancer Research Drug therapy Humans Infectious Diseases letter Mammals Metabolic Diseases Molecular Medicine Neurosciences Nitric oxide Nitric Oxide Synthase Type I - metabolism Physiological aspects Product development Psychiatric-mental health nursing
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creator	Zhu, Li-Juan Li, Ting-You Luo, Chun-Xia Jiang, Nan Chang, Lei Lin, Yu-Hui Zhou, Hai-Hui Chen, Chen Zhang, Yu Lu, Wei Gao, Li-Yan Ma, Yu Zhou, Qi-Gang Hu, Qin Hu, Xiao-Ling Zhang, Jing Wu, Hai-Yin Zhu, Dong-Ya
description	Blocking the binding between two proteins whose interaction is increased during stress can reduce anxiety in mouse models. Anxiety disorders are highly prevalent psychiatric diseases 1 , 2 . There is need for a deeper understanding of anxiety control mechanisms in the mammalian brain and for development of new anxiolytic agents. Here we report that the coupling between neuronal nitric oxide synthase (nNOS) and its carboxy-terminal PDZ ligand (CAPON) can serve as a target for developing new anxiolytic agents. Augmenting nNOS-CAPON interaction in the hippocampus of mice by overexpressing full-length CAPON gave rise to anxiogenic-like behaviors, whereas dissociating CAPON from nNOS by overexpressing CAPON-125C or CAPON-20C (the C-terminal 125 or 20 amino acids of CAPON) or delivering Tat-CAPON-12C (a peptide comprising Tat and the 12 C-terminal amino acids of CAPON) in the hippocampus of mice produced anxiolytic-like effects. Mice subjected to chronic mild stress (CMS) displayed a substantial increase in nNOS-CAPON coupling in the hippocampus and a consequent anxiogenic-like phenotype. Disrupting nNOS-CAPON coupling reversed the CMS-induced anxiogenic-like behaviors. Moreover, small-molecule blockers of nNOS-CAPON binding rapidly produced anxiolytic-like effects. Dexamethasone-induced ras protein 1 (Dexras1)–extracellular signal–regulated kinase (ERK) signaling was involved in the behavioral effects of nNOS-CAPON association. Thus, nNOS-CAPON association contributes to the modulation of anxiety-related behaviors via regulating Dexras1-ERK signaling and can serve as a target for developing potential anxiolytics.
doi_str_mv	10.1038/nm.3644
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Anxiety disorders are highly prevalent psychiatric diseases 1 , 2 . There is need for a deeper understanding of anxiety control mechanisms in the mammalian brain and for development of new anxiolytic agents. Here we report that the coupling between neuronal nitric oxide synthase (nNOS) and its carboxy-terminal PDZ ligand (CAPON) can serve as a target for developing new anxiolytic agents. Augmenting nNOS-CAPON interaction in the hippocampus of mice by overexpressing full-length CAPON gave rise to anxiogenic-like behaviors, whereas dissociating CAPON from nNOS by overexpressing CAPON-125C or CAPON-20C (the C-terminal 125 or 20 amino acids of CAPON) or delivering Tat-CAPON-12C (a peptide comprising Tat and the 12 C-terminal amino acids of CAPON) in the hippocampus of mice produced anxiolytic-like effects. Mice subjected to chronic mild stress (CMS) displayed a substantial increase in nNOS-CAPON coupling in the hippocampus and a consequent anxiogenic-like phenotype. Disrupting nNOS-CAPON coupling reversed the CMS-induced anxiogenic-like behaviors. Moreover, small-molecule blockers of nNOS-CAPON binding rapidly produced anxiolytic-like effects. Dexamethasone-induced ras protein 1 (Dexras1)–extracellular signal–regulated kinase (ERK) signaling was involved in the behavioral effects of nNOS-CAPON association. 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Anxiety disorders are highly prevalent psychiatric diseases 1 , 2 . There is need for a deeper understanding of anxiety control mechanisms in the mammalian brain and for development of new anxiolytic agents. Here we report that the coupling between neuronal nitric oxide synthase (nNOS) and its carboxy-terminal PDZ ligand (CAPON) can serve as a target for developing new anxiolytic agents. Augmenting nNOS-CAPON interaction in the hippocampus of mice by overexpressing full-length CAPON gave rise to anxiogenic-like behaviors, whereas dissociating CAPON from nNOS by overexpressing CAPON-125C or CAPON-20C (the C-terminal 125 or 20 amino acids of CAPON) or delivering Tat-CAPON-12C (a peptide comprising Tat and the 12 C-terminal amino acids of CAPON) in the hippocampus of mice produced anxiolytic-like effects. Mice subjected to chronic mild stress (CMS) displayed a substantial increase in nNOS-CAPON coupling in the hippocampus and a consequent anxiogenic-like phenotype. 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Thus, nNOS-CAPON association contributes to the modulation of anxiety-related behaviors via regulating Dexras1-ERK signaling and can serve as a target for developing potential anxiolytics.</description><subject>692/308/153</subject><subject>692/699/476</subject><subject>Adaptor Proteins, Signal Transducing - metabolism</subject><subject>Amino acids</subject><subject>Anti-Anxiety Agents - pharmacology</subject><subject>Antianxiety agents</subject><subject>Anxiety</subject><subject>Biomedicine</subject><subject>Cancer Research</subject><subject>Drug therapy</subject><subject>Humans</subject><subject>Infectious Diseases</subject><subject>letter</subject><subject>Mammals</subject><subject>Metabolic Diseases</subject><subject>Molecular Medicine</subject><subject>Neurosciences</subject><subject>Nitric oxide</subject><subject>Nitric Oxide Synthase Type I - metabolism</subject><subject>Physiological aspects</subject><subject>Product development</subject><subject>Psychiatric-mental health 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Anxiety disorders are highly prevalent psychiatric diseases 1 , 2 . There is need for a deeper understanding of anxiety control mechanisms in the mammalian brain and for development of new anxiolytic agents. Here we report that the coupling between neuronal nitric oxide synthase (nNOS) and its carboxy-terminal PDZ ligand (CAPON) can serve as a target for developing new anxiolytic agents. Augmenting nNOS-CAPON interaction in the hippocampus of mice by overexpressing full-length CAPON gave rise to anxiogenic-like behaviors, whereas dissociating CAPON from nNOS by overexpressing CAPON-125C or CAPON-20C (the C-terminal 125 or 20 amino acids of CAPON) or delivering Tat-CAPON-12C (a peptide comprising Tat and the 12 C-terminal amino acids of CAPON) in the hippocampus of mice produced anxiolytic-like effects. Mice subjected to chronic mild stress (CMS) displayed a substantial increase in nNOS-CAPON coupling in the hippocampus and a consequent anxiogenic-like phenotype. 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subjects	692/308/153 692/699/476 Adaptor Proteins, Signal Transducing - metabolism Amino acids Anti-Anxiety Agents - pharmacology Antianxiety agents Anxiety Biomedicine Cancer Research Drug therapy Humans Infectious Diseases letter Mammals Metabolic Diseases Molecular Medicine Neurosciences Nitric oxide Nitric Oxide Synthase Type I - metabolism Physiological aspects Product development Psychiatric-mental health nursing
title	CAPON-nNOS coupling can serve as a target for developing new anxiolytics
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